def test_metar(self): """ Tests end-to-end METAR translation """ units = structs.Units(**static.core.NA_UNITS) data = { "altimeter": core.make_number("29.92", "2992"), "clouds": [core.make_cloud("BKN015CB")], "dewpoint": core.make_number("M01"), "other": [], "temperature": core.make_number("03"), "visibility": core.make_number("3"), "wind_direction": core.make_number("360"), "wind_gust": core.make_number("20"), "wind_speed": core.make_number("12"), "wind_variable_direction": [ core.make_number("340"), core.make_number("020"), ], "wx_codes": get_wx_codes(["+RA"])[1], } data.update({ k: "" for k in ( "raw", "remarks", "station", "time", "flight_rules", "remarks_info", "runway_visibility", "sanitized", ) }) data = structs.MetarData(**data) trans = structs.MetarTrans( altimeter="29.92 inHg (1013 hPa)", clouds="Broken layer at 1500ft (Cumulonimbus) - Reported AGL", dewpoint="-1°C (30°F)", remarks={}, temperature="3°C (37°F)", visibility="3sm (4.8km)", wind="N-360 (variable 340 to 020) at 12kt gusting to 20kt", wx_codes="Heavy Rain", ) translated = translate.metar.translate_metar(data, units) self.assertIsInstance(translated, structs.MetarTrans) self.assertEqual(translated, trans)
def test_metar(self): """ Tests end-to-end METAR translation """ units = structs.Units(**static.NA_UNITS) data = { 'altimeter': core.make_number('2992'), 'clouds': [core.make_cloud('BKN015CB')], 'dewpoint': core.make_number('M01'), 'other': ['+RA'], 'temperature': core.make_number('03'), 'visibility': core.make_number('3'), 'wind_direction': core.make_number('360'), 'wind_gust': core.make_number('20'), 'wind_speed': core.make_number('12'), 'wind_variable_direction': [core.make_number('340'), core.make_number('020')] } data.update({ k: '' for k in ('raw', 'remarks', 'station', 'time', 'flight_rules', 'remarks_info', 'runway_visibility', 'sanitized') }) data = structs.MetarData(**data) trans = structs.MetarTrans( altimeter='29.92 inHg (1013 hPa)', clouds='Broken layer at 1500ft (Cumulonimbus) - Reported AGL', dewpoint='-1°C (30°F)', other='Heavy Rain', remarks={}, temperature='3°C (37°F)', visibility='3sm (4.8km)', wind='N-360 (variable 340 to 020) at 12kt gusting to 20kt') translated = translate.metar(data, units) self.assertIsInstance(translated, structs.MetarTrans) self.assertEqual(translated, trans)
def test_metar(self): """Tests that METAR translations are summarized in the proper order""" self.assertEqual( summary.metar( structs.MetarTrans( altimeter="29.92 inHg (1013 hPa)", clouds= "Broken layer at 1500ft (Cumulonimbus) - Reported AGL", dewpoint="-1°C (30°F)", remarks={}, temperature="3°C (37°F)", visibility="3sm (4.8km)", wind="N-360 (variable 340 to 020) at 12kt gusting to 20kt", wx_codes="Heavy Rain", )), ("Winds N-360 (variable 340 to 020) at 12kt gusting to 20kt, " "Vis 3sm, Temp 3°C, Dew -1°C, Alt 29.92 inHg, " "Heavy Rain, Broken layer at 1500ft (Cumulonimbus)"), )
def test_metar(self): """ Tests that METAR translations are summarized in the proper order """ self.assertEqual( summary.metar( structs.MetarTrans( altimeter='29.92 inHg (1013 hPa)', clouds= 'Broken layer at 1500ft (Cumulonimbus) - Reported AGL', dewpoint='-1°C (30°F)', other='Heavy Rain', remarks={}, temperature='3°C (37°F)', visibility='3sm (4.8km)', wind='N-360 (variable 340 to 020) at 12kt gusting to 20kt') ), ('Winds N-360 (variable 340 to 020) at 12kt gusting to 20kt, ' 'Vis 3sm, Temp 3°C, Dew -1°C, Alt 29.92 inHg, ' 'Heavy Rain, Broken layer at 1500ft (Cumulonimbus)'))